Lens Ray Diagram Info Sheet

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Lens Ray Diagram Info Sheet

Lens Ray Diagram Info Sheet

The following are some useful thoughts to keep in mind for ray diagrams with lenses. It is very easy to get confused between lenses and mirrors, so get to know this.

 First of all, note that lenses have a focal point (F) on each side of the lens; curved mirrors had only one focal point.

 Note that, for a double convex (converging) lens, the focal length f is always considered positive. For a double concave (diverging) lens, the focal length f is always considered negative.

 Recall there are three special rays that we can use to locate an image formed by an object for converging and diverging lenses.

Converging:

1. A ray parallel to the axis will refract through the focal point on the opposite side of the lens, relative to the object.

Lens Ray Diagrams 1 Bradshaw 2. A ray passing through the center of the lens will, as I like to say, “Keep on keepin’ on.” That is, it continues on straight as if the lens wasn’t there.

3. A ray passing through the focal point on the same side (relative to the object) will refract parallel to the axis.

Diverging:

Lens Ray Diagrams 2 Bradshaw 1. A ray parallel to the axis will refract away from the axis in such a direction that the extension of the refracted ray will pass through the focal point on the same side of the lens as the object.

2. A ray passing through the center of the lens will keep on keepin’ on.

3. A ray that is directed towards the focal point on the opposite side of the lens (relative to the object) will refract parallel to the axis.

Lens Ray Diagrams 3 Bradshaw  Recall that, for each example, only two of three of these special rays are needed to locate an image.

Sign Conventions; Real and Virtual Images

 Whenever the image is on the same side of the lens as the object, the image is a virtual image. If the image is on the opposite side of the lens as the object, the image is a real image.

 When measuring an image distance: a distance measured from the lens to the same side as the object is considered negative; a distance measured from the lens to the opposite side as the object is considered positive.

 Consider the following table for info about images and lenses:

Real Virtual Location On the opposite On the same side (relative to side of the lens of the lens object) Orientation Inverted Upright di Positive Negative hi Negative Positive M Negative Positive

Lens Ray Diagrams 4 Bradshaw

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